Paper Info
Title
Steady-state dynamic temperature analysis and reliability optimization for embedded multiprocessor systems
Abstract
In this paper we propose an analytical technique for the steady-state dynamic temperature analysis (SSDTA) of multiprocessor systems with periodic applications. The approach is accurate and, moreover, fast, such that it can be included inside an optimization loop for embedded system design. Using the proposed solution, a temperature-aware reliability optimization, based on the thermal cycling failure mechanism, is presented. The experimental results confirm the quality and speed of our SSDTA technique, compared to the state of the art. They also show that the lifetime of an embedded system can significantly be improved, without sacrificing its energy efficiency, by taking into consideration, during the design stage, the steady-state dynamic temperature profile of the system.
Year
DOI
Venue
2012
10.1145/2228360.2228399
Design Automation Conference
Keywords
Field
DocType
steady-state dynamic temperature analysis,analytical technique,design stage,multiprocessor system,steady-state dynamic temperature profile,embedded system design,optimization loop,embedded multiprocessor system,ssdta technique,temperature-aware reliability optimization,embedded system,thermal cycling,performance,embedded systems,steady state,optimization,design,reliability,energy efficiency,mathematical model,energy efficient,symmetric matrices
Efficient energy use,Computer science,Electronic engineering,Symmetric matrix,Real-time computing,Multiprocessing,Temperature cycling,Analytical technique,Steady state,Periodic graph (geometry),Reliability optimization
Conference
ISSN
ISBN
Citations 
0738-100X
978-1-4503-1199-1
22
PageRank 
References 
Authors
0.88
6
4
Name
Order
Citations
PageRank
Ivan Ukhov1343.12
Min Bao21095.77
PETRU ELES32366174.65
ZEBO PENG42422183.67